WO1990000775A1

WO1990000775A1 - Arrangement for marking system

Info

Publication number: WO1990000775A1
Application number: PCT/SE1989/000372
Authority: WO
Inventors: Magnus Hellquist; Björn MUCHOW; Klas Erngren
Original assignee: Magnus Hellquist; Muchow Bjoern; Klas Erngren
Priority date: 1988-07-06
Filing date: 1989-06-29
Publication date: 1990-01-25
Also published as: JP2966868B2; AU3859889A; EP0423188A1; AU621132B2; DE68912592T2; SE8802531L; SE461690B; JPH04502517A; SE8802531D0; DE68912592D1; EP0423188B1

Abstract

An electronic marking system comprises cooperative units (4, 4a,...4n) with information carrying elements which can be supplied with programmable basic information. The information can be initiated by means of computer equipment (7). One or more of the functions of each unit is made dependent upon one or more functional state of one or more of the remaining units. An antenna loop (3) leads past the units in the room. In the loop each transmitter transmits individually assigned code information, which is modulated onto a low frequency carrier wave, together with the modification information. In a transmission mode the unit transmits answer information in the form of a signal frequency which is modulated onto the said carrier wave and which can be detected via the antenna loop (3) in a receiver.

Description

Arrangement for marking system

The present invention relates to an arrangement for a computerized electronic marking system which comprises in the system cooperative units with information- carrying elements which can be supplied with programmable basic information. The arrangement is in this connection of the type which makes it possible that the basic information can be modified via wireless connections between one or more transmitter and the units. The respective modification information transmitted by the transmitter(s) can be initiated using computer equipment, e.g. a PC. Modification information means in this case information which modifies, extends and/or supplements the said basic information.

Electronic marking systems with so-called independently operating units are previously known. Such independently operating units are supplied with modification information via the wireless connection from a manoeuvrable piece of equipment which comprises one or more transmitter. The independently operating unit is an entirely passive component and upon the supply of modification information it must be assumed that the receiving unit functions as intended and that the information supplied is the correct information. There is of course the possibility of visual control but in certain cases there can be difficulties in carrying out such a control.

It is also previously known to execute the wireless connection for e.g. IR transmission, which has limitations, however, because of its small angles of reception in the IR receivers, the requirement for a large number of transmitters and wiring upon the use of the system in large rooms etc. With electronic marking systems of this category there is today a requirement for a totally integratable and technically simple system, in which automatic control of the different parts of the system can be achieved in a simple manner. Such a system presupposes the use of an entirely different type of marking units than the above-mentioned types of independently operating units.

Each unit must in effect be able to function as an active unit within the system and automatically give up its status information upon information modification, updating etc. Consequently it is required that the system operates with a feedback function of a type known per se and which supplies the controlling and updating equipment with information which can be used by the equipment for functionally relating the units in the system. In such a manner the units can be incorporated in the monitoring and control functions in an entirely different manner within the system than was previously possible. The new system is consequently more convenient and reliable and can, together with other features which are suggested by the present invention, be given a relatively technically simple construction.

The new arrangement can be considered as being characterized by, among other things, one or more of the functions of each unit being made dependent upon one or more functional state of one or more of the remaining units and/or external function(s). A second characteristic is that each transmitter, via an antenna loop which leads past the units in question, transmits code information, which is modulated onto a low frequency carrier wave and individually assigned to the units, together with the modification information, in addition to which each unit is assigned a tuning circuit and amplification and demodulation element for the modulation frequency used in.order to make possible on the one hand reception of its individual code information when this appears in the antenna loop and on the other hand its activation for reception of the modification information sent together with the individual code information. Finally each unit is assigned a transmission element with oscillator element which is activatable upon completed reception of the respective modification information in the unit for transmission of answer information in the form of a signal frequency which can be modulated onto the said carrier wave and which can be detected via the antenna loop in a receiver, connected to the latter, for establishing a relationship in the system with the functional state of remaining units in the cooperation of the units.

In one embodiment, each transmitter transmits the code information with the associated modification information to the units in a predetermined or random order. The system is in this connection arranged to have available action instructions for taking action on a unit which does not fulfil a function assigned to it. Each transmitter can in this connection be arranged so that, in the event of an error indication in the answer information, e.g. in the form of signal frequency not appearing from the unit in question, it will interrupt the transmission of subsequent code information and modification information until the unit or the erroneous function within the unit has been acted upon. After this the transmitter can continue with the transmission of the code and modification information.

The invention also takes into account the construction itself of the unit. Each unit can have a short ruler- shaped construction with a relatively small depth, e.g. a depth of 4-8 mm, advantageously approx. 6 mm. The length can be e.g. 40 mm and the width approx. 20 mm. One or more units in the system can be suppliable with power wholly or partly by a solar cell battery. The said battery can interact with a conventional battery and upon disconnection of the solar cell battery, automatic limiting of the power supplied takes place in that only parts of the power-consuming elements of the unit remain connected.

Each unit has one or more display element which is respectively divided up for its information. Each unit carries on a front surface, e.g. next to the said display element, a bar code label which gives details of goods, products etc. which are associated with the unit. The system can in this connection include a register which belongs to or is connected to the computer equipment. In the register, the goods, products etc. are catalogued by means of the bar code. In one embodiment, the basic information for the units can be transferred from the said register to the unit by means of elements which recognize bar codes, e.g. a reading pen, which are run over the bar code on the said bar code label.

In other embodiments of the inventive idea, two or more units can be physically joined together, e.g. via elements supporting an antenna. The units joined together in this manner can have certain elements in common and e.g. be arranged so that activatability of the first unit presupposes a connection or closure function in the second unit.

τho system is designed advantageously so that it operates with a transmission cycle, in which each unit is assigned a time interval, the length of which depends upon the number of units in the system/part system. During the first part of each time interval, coded signals appear with a code construction for code and modification information which corresponds to that which applies for the standardized bar code, in which thirteen bits are attributed to the identification of the unit and three bits to the grouping information in cataloguing. A number of bits for each piece of - 5 -

modification information follows the said code information. During the second part of the time interval, which can comprise a very short part of the total length of the time interval, e.g. approx. 0.05 sec, the unit transmits its characteristic signal frequency for e.g. answer information. The low frequency carrier wave can be assigned a frequency between 25 and 100 kHz. The carrier wave is advantageously frequency modulated.

By means of the above suggestions, an interference- resistant electronic marking system with a functionally reliable and technically simple construction is obtained, in which active cooperative units are totally integrated in the system. The electronic labelling system can be made with a design which is associated with the remaining equipment in the store or corresponding labelling system.

A for the present suggested embodiment of an arrangement which has the characterizing features of the invention is described below with simultaneous reference to the attached drawings in which

Figure 1 shows in principle the total electronic system with associated active and cooperative units,

Figure 2 shows in perspective obliquely from above left an example of the construction of each unit, the unit comprising three different displays for three different pieces of information and a support surface for a bar code label, the information in which can be transferred to the unit by means of elements which transfer bar codes,

Figure 3 shows in principle the construction of each unit in a single version, Figure 4 shows in principle an example of the construction of units in a double version,

Figure 5 shows in principle the construction of a programming unit with a low frequency transmitter and low frequency receiver and associated modulation circuits, and

Figure 6 shows in graph form the frequency/time function for reception and transmission of the units.

Figure 1 shows an electronic marking system for use in stores, warehouses or in other connections where it is desirable to distribute and visually control visible information in places which are physically separate and e.g. covered with goods. The system includes a programmable receiving and transmitting unit 1 which is connected to a power unit 2, to which an antenna loop 3 is connected which leads into the room in question or similar. The loop is drawn past the said physically separate places in the space (the room) and can be accommodated in a ceiling, floor or run in a suitable manner in the room. The transmitting and receiving equipment operates at low frequency, e.g. within the range 10-lOOkHz. Modulation is carried out advantageously by frequency modulation. The equipment operates with digital pulses and time division. In association with the antenna loop, a number of units 4, 4a, 4b, 4c ... 4n are arranged in physically separate places. The number of units can vary within wide limits and the system also functions with very large numbers of units. The system can itself be made up of modular part systems which are respectively assigned transmitting and receiving elements and antenna loop, but which are controllable as a whole with common control equipment. The units are coupled and tuned to the antenna loop 3 and are positioned at an optimum distance from the antenna loop for appropriate reception and transmission in a two-way communication. The equipment 1, 2 transmits via the antenna loop code information, which is modulated onto a low frequency carrier wave and individually assigned to the units, and with this subsequent modification and control information, which supplements or replaces information which is already in the respective unit. Each unit has a tuning circuit and amplification and demodulation element, indicated with 5, of known type. Each unit is also provided with a transmission element with associated oscillator element, indicated with 6, by means of which the unit can form part of the said two- way communication with the equipment 1, 2. Answer information from each unit can be modulated onto the carrier wave in the antenna loop 3 and is detected in the equipment 1, 2. Two or more units can share common equipment, e.g. control element, power supply etc.

Appropriate modification information for the different units can be entered using computer equipment 7, e.g. a PC, which is positioned in the room in question. If the store or the like forms part of a chain of several stores, modification and control information, e.g. in association with price campaigns or the like, can be entered from controlling computer equipment, the transfer from the controlling point being effected via the general telecommunication network 9 and modem equipment 10, 11 in known manner. This information can also be two-way.

Each unit can in such a manner be integrated and coordinated with the pricing in its entirety and automatic information is received in the system from the respective store shelf. Pricing operates concurrently and is integrated and the information on a unit is directly functionally related to the information on other or remaining units. The electrical power state in each unit is followed up and acted upon. Errors occurring in each unit are picked up immediately for action before the subsequent operation is completed etc. The computer equipment can give listed statements of units which do not give up answer information upon information modification and information follow-up of the units. The reciprocal interaction can also be effected in an error action mode for error-listed units which are acted upon successively, the action on one unit being carried out before the next unit is acted upon and so on. In one embodiment, one unit is supervisory and differs from other units by functioning as a large price labelling board set up in the room. The system provides coordination in labelling of the prices, which labelling is to correspond both on the general board and on the labels (the units) on the shelves or similar. The units can draw information from the board or vice versa. An exchange of information is thus presupposed between the board and the units.

Figure 2 shows an example of the construction of a unit ' which in terms of design is adapted to other pricing equipment (manual labels) in a relevant store, room etc. Externally there is no difference between the electronic and manual labels. Externally each unit has the front side provided with at least one display 12. In the example shown, three displays 12, 12' and 12'' are included for displaying the respective information (price information) .

The unit 4' is made with space for a bar code label B for standardized (EAN) bar code with 13 bits (bars) attributed to goods identification and 3 bits to group division of the goods. The label also has wording for the name of the goods etc. The unit is furthermore optimally dimensioned as far as the dimensions h, L and d (see above) are concerned in terms of legibility, handling etc. An example of the internal construction of the unit 4'' is shown in Figure 3. The display units 12, 12' and 12' ' are made in a custom design with a three level display. The unit has an antenna circuit 13 connected to high and low pass filters 14. Connected to the part 14 is a monitoring and control circuit 15 which is in turn connected to a memory 16 with a latch function. The display units 12, 12' and 12'' are driven by a drive unit 17 with a multiplexer which supplies the display crystals with power in a multiplexed mode. The memory 14 is connected to the part 17. The unit is provided with an electrical power supply circuit 18 which can include solar cell elements. The circuit 18 can include or be connected, via connection 19, to a conventional battery, the solar cell battery then acting as a back-up. When the electrical power supply is running low and a predetermined voltage level cannot be maintained, a signal is activated in the circuit 18, e.g. by means of a flip-flop, which gives an indication of an unacceptable power supply state.

The unit is provided with transmission elements 20, by means of which information transmissions from the unit can be transmitted. The information from the unit can comprise answer information (receipt), e.g. in connection with control and pricing, information that electrical power is running low etc. In the case of insufficient electrical power in the unit, the said signal initiates a transmission to this effect, during the appropriate time period of the unit, at the same time as disconnection of parts of the power consumption of the unit is carried out. In this connection only circuits necessary for the functioning of the unit are supplied with power, e.g. memory circuits, transmission element circuits etc. The unit is also provided with an electronic change-over switch 21 which switches the unit into reception and transmission modes. In the reception mode the unit receives via the antenna 14 information which is coded to correspond to the said bar code. The code includes an individual piece of information assigned to the unit, made up of a total of 16 bits, of which 13 bits are for the identification of the goods (unit identification) and 3 bits for associated goods grouping information. The individual code information brings about activation of the part 15 which activates the memory and change-over circuits 16 and 21 respectively. The memory content can then be controlled, modified, supplemented etc. with a piece of information following the said code information, here referred to as control and modification information. After reception in the memory, any modification information is transferred to the display units 12, 12' and 12' ' via the drive unit 17. The change-over switch 21 is arranged so that after the reception mode it switches the unit over into the transmission mode, in which the transmission element 20 is activated. The change-over switch can include a time circuit which is activated in connection with the activation of the unit. After a predetermined time, the change-over switch switches over automatically to transmission mode. When control or modification information has been received correctly, an answer signal is transmitted via the transmission elements 20 and the antenna and the filter circuits, which signal is advantageously of very short duration, e.g. 0.05 sec. Information regarding any deficiency in electrical power is also short. Control of the electrical power status of the unit can be effected frequently in the system, e.g. daily.

If no answer information leaves the unit after information, enquiries etc., has been received, the system takes this to mean that an error has occurred in the unit which is placed on the error list, acted upon etc. hen answer information is given up, the unit reverts to its normal state or its non-activated state until the next time that the said code and modification and control information appears and so on. In its normal state the unit draws very little power. A signal leaving the unit is modulated onto the carrier wave in the antenna loop 3 and is detected in the unit 1 (Figure 1) .

The unit 4' ' ' in Figure 4 is executed for a double or multiple version in which the equipment in each unit is served by common circuits 13', 15' and 21'. In this case both the reception element and the transmission element are integral in the part 15' . The display units 12_TL and 12₂ are individual, as are battery supplies 18', 18'' and filter circuits 14', 14''. Operation presupposes that performance of a function in a first unit is dependent upon the state in a second unit and vice versa.

Figure 5 shows blocks 1 and 2 according to Figure 1, unit 1 of which is in Figure 5 divided into the parts la, lb, lc, Id and le. The part 2' corresponds to 2. The part lc is connected to the computer 7 and modem 11 respectively in Figure 1 via the connection 22. Electrical power to the said parts is connected via the connection 23 (e.g. network supply).

la comprises a data programming unit, lb a data conversion unit (adapter circuit) and lc a control and block division unit with signal reception circuits. Appropriate information (e.g. pricing information) with regard to programming and control is programmed into and read out in the unit la. The unit lc is connected to a switching unit and carries out time division of the information digitally. Each unit is assigned a time period for its reception and transmission in the time cycle of the system. Time periods (the time intervals) depend upon among other things the number of units in the system. The units la, lb and lc are connected to a frequency modulator Id which in turn is ' connected to the low frequency amplifier and the low frequency receiver 2'. The code, modification and control information assigned to the units is transmitted, modulated onto a low frequency carrier wave, via the unit 2' . The unit 2' receives and detects answer information and other information from the units in its reception circuit. Transmission and reception can take place in a predetermined or random order with regard to the units.

According to Figure 6, frequencies within the range 10- 100kHz can be used for the carrier wave. Advantageously a frequency within the range 25-100kHz is selected, e.g. 35kHz. In the Figure time periods ^tl"^t6 ^are indicated. The time periods ^ and t₂ are assigned to a first unit, the time periods t and t^ are assigned to a second unit, the time periods tg and tg are assigned to a third unit and so on.

The time period t^ for the time assigned to the first unit in the time cycle of the system comprises a reception mode in which the unit is ready to receive its individual code information, which consists of 13 + 3 bits, and subsequent control or modification information of a predetermined and here not specified number of bits. The time period t₂ for the first unit comprises a transmission mode, during which answer information is to go out to the controlling units in the system.

By means of the above-mentioned coupling of bar-coding (European standard) and the chosen coding for information in the electronic system, a natural relationship is obtained between the above-mentioned label details on the unit, which can be provided with a suitable bar code label B' (in Figure 5) , the information on which can be easily introduced into the marking system by reading off with elements 5 which process bar codes. In Figure 5 the information from the label B' is introduced into the unit lc.

Alternatively or in addition, the information can be transferred to the unit la. Upon the transfer of the bar code information to the system, each unit 4' ' ' ' can by means of temporary connection to the unit 1 (Figure 1), e.g. to the unit la (Figure 5) within it, be provided with basic information which can be directly transferred from the label B' by means of the reading element 5. This basic information is supplied to the unit before it is placed on the shelf or similar. Updating, control etc. of this basic information can subsequently take place in accordance with the above. The basic information can consist of an identification (code) assigned to the unit, which identification is not changed as long as the marking can be related to goods or a place assigned to it.

The invention is not restricted to the embodiment indicated above by way of example but can be modified within the scope of the following claims and the inventive idea.

Claims

1. Arrangement for a computerized electronic marking system which comprises in the system cooperative units (4a, 4b ... 4n) with an information-carrying element 5 (12, 12', 12' ' ) which can be supplied with programmable basic information which can be modified via wireless connections between one or more transmitter and the units, the modification information transmitted by the respective transmitter being initiatable using computer 10 equipment (7), characterized in that one or more of the functions of each unit is made dependent upon one or more functional state of one or more of the remaining units and/or external function(s), that each transmitter (1, 2) , via an antenna loop (3) which leads 15 past the units in question, transmits code information, which is modulated onto a low frequency carrier wave and individually assigned to the units, together with the modification information, each unit being assigned a tuning circuit and amplification and demodulation 20 element (5) for the modulation frequency used in order to make possible on the one hand reception of its individual code information when this appears in the antenna loop (3) and on the other hand its activation for reception of the modification information sent 25 together with the individual code information, and that each unit is assigned a transmission element with oscillator element (6) which is activatable upon completed reception of the respective modification information in the unit and for transmission of answer ^■-- information in the form of a signal frequency which can be modulated onto the said carrier wave and which can be detected via the antenna loop in a receiver (2'), connected to the latter, for establishing a relationship in the system with the functional state of ³⁵ remaining units in the cooperation of the units.

2. Arrangement according to claim 1, characterized in that each transmitter (1, 2) transmits the code information with the associated modification information to the units in a predetermined or random order and that the system has available action instructions for taking action on a unit which does not fulfil a function assigned to it.

3. Arrangement according to claim 1 or 2, characterized in that each transmitter (1, 2) is arranged so that, in the event of an error indication in the answer information, e.g. in the form of signal frequency not appearing from the unit in question, it will interrupt the transmission of subsequent code information and modification information until the unit or its erroneous function has been acted upon, after which the transmitter continues with the said transmission.

4. Arrangement according to any of the preceding claims, characterized in that one or more, advantageously all, of the units are supplied with power wholly or partly by an element which converts light energy to electrical energy, e.g. a solar cell battery (18) .

5. Arrangement according to claim 4, characterized in that upon disconnected operation of the element converting light energy to electrical energy, only parts of the power-consuming elements of the unit are connected.

6. Arrangement according to any of the preceding claims, characterized in that each unit has a short ruler-shaped construction with a depth of 4-8 mm, advantageously approx. 6 mm, and a construction or design which conforms to other equipment e.g. manual labels, in the relevant store or similar.

7. Arrangement according to any of the preceding claims, characterized in that each unit has one or more display element (12, 12', 12' ') which is respectively divided up for its information and that each unit carries a bar code label (B') which gives details of goods, products etc. which are associated with the unit, and that from a register, which belongs to or is connected to the computer equipment and in which the goods, products etc. are catalogued by means of the bar code, the basic information can be transferred to the unit by means of elements which read bar codes, e.g. a reading pen.

8. Arrangement according to any of the preceding claims, characterized in that two or more units are physically joined together, e.g. via elements (13') supporting an antenna, and that the units joined together have certain elements in common (13', 15', 21') and e.g. are arranged so that activatability of the first unit presupposes a connection function in the second unit.

9. Arrangement according to any of the preceding claims, characterized in that each unit in the transmission cycle of the system is assigned a time interval (t^, t₂), the length of which depends upon the number of units in the system or in a part system within the system, that during the first part (tη) of the time interval, the code construction of the said code and modification information corresponds to that which applies for the standardized bar code, in which thirteen bits are attributed to the identification of the unit and three bits relate to the grouping information for the goods, products etc. , and a number of bits for modification information follows the code information, and that during the second part (t ) of the time interval, which comprises a very short part of the total length of the time interval, e.g. 0.05 sec, the said characteristic signal frequency for the unit is transmitted.

10. Arrangement according to any of the preceding claims, characterized in that the carrier wave has a frequency between 25 and 100 kHz, and is advantageously approx. 35 kHz, and that the modulation frequency comprises frequency modulation.